Flat IP: Difference between revisions
m Robot - Speedily moving category 3rd Generation Partnership Project standards to Category:3GPP standards per CFDS. |
m Tagging using AWB (10703) |
||
| Line 1: | Line 1: | ||
{{Multiple issues|refimprove |
{{Multiple issues| |
||
{{refimprove|date=August 2010}} |
|||
{{peacock|date=August 2011}} |
|||
}} |
|||
'''Flat IP''' architecture provides a way to identify devices using symbolic names, unlike the [[hierarchy|hierarchical]] architecture such as that used in "normal" [[IP address]]es. This form of system is of more interest to mobile broadband network operators. |
'''Flat IP''' architecture provides a way to identify devices using symbolic names, unlike the [[hierarchy|hierarchical]] architecture such as that used in "normal" [[IP address]]es. This form of system is of more interest to mobile broadband network operators. |
||
| Line 20: | Line 24: | ||
Base station routers will provide simpler, lower-latency 3GPP/2 networks. Key emerging players are: [[Alcatel-Lucent]], [[Airvana]], and Ubiquisys. |
Base station routers will provide simpler, lower-latency 3GPP/2 networks. Key emerging players are: [[Alcatel-Lucent]], [[Airvana]], and Ubiquisys. |
||
For WCDMA networks, the [[Direct Tunnel]] Architecture is emerging as the most viable evolution path. Currently all major vendors support Direct Tunnel, where the SGSN is bypassed on the user plane. An even further advancement is Nokia-Siemens's Internet High Speed Packet Access ([IHSPA]) architecture which removes also the RNC from the data path thereby simplifying the architecture and reducing latencies even further. |
For WCDMA networks, the [[Direct Tunnel]] Architecture is emerging as the most viable evolution path. Currently all major vendors support Direct Tunnel, where the SGSN is bypassed on the user plane. An even further advancement is Nokia-Siemens's Internet High Speed Packet Access ([IHSPA]) architecture which removes also the RNC from the data path thereby simplifying the architecture and reducing latencies even further.<ref>[http://www.nokiasiemensnetworks.com/portfolio/products/mobile-broadband/wcdmahspa/i-hspa ]{{dead link|date=October 2012}}</ref> |
||
The WiMax Access Services Network was the first standardized IP-centric mobile network architecture establishing principles now being adopted across the industry. Eventually HSPA and LTE networks have been chosen by most operators as their preferred network technology. |
The WiMax Access Services Network was the first standardized IP-centric mobile network architecture establishing principles now being adopted across the industry. Eventually HSPA and LTE networks have been chosen by most operators as their preferred network technology. |
||
Revision as of 11:56, 7 January 2015
 | This article has multiple issues. Please help improve it or discuss these issues on the talk page. (Learn how and when to remove these messages)
|
Flat IP architecture provides a way to identify devices using symbolic names, unlike the hierarchical architecture such as that used in "normal" IP addresses. This form of system is of more interest to mobile broadband network operators.
Flat IP architecture
To meet customer demand for real-time data applications delivered over mobile broadband networks, wireless operators are turning to flat IP network architectures.
- The key benefits of flat IP architectures are
- lower costs
- reduced system latency
- decoupled radio access and core network evolution
- Key players in recognizing these advantages are
- Mobile Networks
- 3rd Generation Partnership Project (3GPP)
- 3GPP2 standards organizations
- WiMAX Forum.
- Key considerations of Flat IP Architectures for Mobile Networks include
Advanced base stations that integrate radio control, header compression, encryption, call admission control, and policy enforcement with IP/Ethernet interfaces. Base station routers will provide simpler, lower-latency 3GPP/2 networks. Key emerging players are: Alcatel-Lucent, Airvana, and Ubiquisys.
For WCDMA networks, the Direct Tunnel Architecture is emerging as the most viable evolution path. Currently all major vendors support Direct Tunnel, where the SGSN is bypassed on the user plane. An even further advancement is Nokia-Siemens's Internet High Speed Packet Access ([IHSPA]) architecture which removes also the RNC from the data path thereby simplifying the architecture and reducing latencies even further.[1]
The WiMax Access Services Network was the first standardized IP-centric mobile network architecture establishing principles now being adopted across the industry. Eventually HSPA and LTE networks have been chosen by most operators as their preferred network technology.